Your search keyword '"Clinical decision support system (CDSS)"' showing total 226 results

1. Deep Learning in the Context of Artificial Intelligence: Advancements and Applications

Author

Chaturvedi, Arpana, Pathak, Nitish, Sharma, Neelam, Mahaveerakannan, R., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Hassanien, Aboul Ella, editor, Anand, Sameer, editor, Jaiswal, Ajay, editor, and Kumar, Prabhat, editor

Published

2025

2. Impact of a Clinical Decision Support System on the Efficiency and Effectiveness of Performing Medication Reviews in Community Pharmacies: A Randomized Controlled Trial.

Author

Dabidian, Armin, Kinny, Florian, Steichert, Melina, Schlottau, Sabina, Bartel, Anke, Schwender, Holger, and Laeer, Stephanie

Abstract

Background: Clinical decision support systems (CDSSs) already support community pharmacists in conducting medication reviews (MRs) by identifying important information on interactions and suggesting clinical solutions. However, their impact in terms of quality and time savings is widely unexplored. The aim of our study was to investigate whether MRs are performed faster and better with or without using a CDSS. Methods: In a randomized controlled study with a cross-over design, 71 pharmacists performed a total of four MRs, two with and two without the use of a CDSS. The primary endpoint was defined as the time required for the MRs. The secondary endpoints were the number of predefined relevant drug-related problems (DRPs) detected and pharmacist satisfaction. Results: Without the use of a CDSS, pharmacists needed between 25.7% and 30.7% more time to perform a MR than with a CDSS. In addition, significantly more relevant DRPs were detected in the MRs with CDSS than without CDSS (70% vs. 50%; p = 0.0037). Furthermore, participants stated that they felt more confident using a CDSS for MRs than without. Conclusions: Our results demonstrate that MRs can be performed both faster and better when using a CDSS than without. Consequently, community pharmacists benefit from the use of CDSSs for MRs, as do patients in terms of their drug therapy safety. [ABSTRACT FROM AUTHOR]

Published

2024

3. Vignette-based comparative analysis of ChatGPT and specialist treatment decisions for rheumatic patients: results of the Rheum2Guide study.

Author

Labinsky, Hannah, Nagler, Lea-Kristin, Krusche, Martin, Griewing, Sebastian, Aries, Peer, Kroiß, Anja, Strunz, Patrick-Pascal, Kuhn, Sebastian, Schmalzing, Marc, Gernert, Michael, and Knitza, Johannes

Subjects

*LANGUAGE models, *CLINICAL decision support systems, *GENERATIVE pre-trained transformers, *CHATGPT, *ARTIFICIAL intelligence

Abstract

Background: The complex nature of rheumatic diseases poses considerable challenges for clinicians when developing individualized treatment plans. Large language models (LLMs) such as ChatGPT could enable treatment decision support. Objective: To compare treatment plans generated by ChatGPT-3.5 and GPT-4 to those of a clinical rheumatology board (RB). Design/methods: Fictional patient vignettes were created and GPT-3.5, GPT-4, and the RB were queried to provide respective first- and second-line treatment plans with underlying justifications. Four rheumatologists from different centers, blinded to the origin of treatment plans, selected the overall preferred treatment concept and assessed treatment plans' safety, EULAR guideline adherence, medical adequacy, overall quality, justification of the treatment plans and their completeness as well as patient vignette difficulty using a 5-point Likert scale. Results: 20 fictional vignettes covering various rheumatic diseases and varying difficulty levels were assembled and a total of 160 ratings were assessed. In 68.8% (110/160) of cases, raters preferred the RB's treatment plans over those generated by GPT-4 (16.3%; 26/160) and GPT-3.5 (15.0%; 24/160). GPT-4's plans were chosen more frequently for first-line treatments compared to GPT-3.5. No significant safety differences were observed between RB and GPT-4's first-line treatment plans. Rheumatologists' plans received significantly higher ratings in guideline adherence, medical appropriateness, completeness and overall quality. Ratings did not correlate with the vignette difficulty. LLM-generated plans were notably longer and more detailed. Conclusion: GPT-4 and GPT-3.5 generated safe, high-quality treatment plans for rheumatic diseases, demonstrating promise in clinical decision support. Future research should investigate detailed standardized prompts and the impact of LLM usage on clinical decisions. [ABSTRACT FROM AUTHOR]

Published

2024

4. Influencing factors of physician acceptance of AI-based clinical decision support systems (AI-CDSS) for diagnosis of rare diseases.

Author

Pietrzyk, Ulrike and Gühne, Michael

Subjects

RARE diseases, ARTIFICIAL intelligence, MEDICAL decision making, LEUKODYSTROPHY, META-analysis

Abstract

AI-CDSS can significantly enhance the decision-making performance of physicians who are not specialists in diagnosing rare diseases. Acceptance of the AI-CDSS is crucial for its effective use. In the Leuko-Expert project, the factors influencing physician acceptance of AI-CDSS were examined. This article introduces how these influencing factors were identified through a systematic review. Subsequently, semi-structured interviews were conducted to explore additional influencing factors for the use of AI-CDSS in the context of leukodystrophy. Finally, we discuss the limitations of transferring these findings to other rare disease cases and suggest directions for future research. [ABSTRACT FROM AUTHOR]

Published

2024

5. Data-Driven Decision-Making for Classification of Diabetic Retinopathy Using Convolutional Neural Network (CNN) in a Clinical Decision Support System

Author

Ghazali, Ahmad Faiz, Zakaria, Nuriyah Mohamad, Ali, Azliza Mohd, Fournier-Viger, Philippe, Series Editor, Abdullah, Nur Atiqah Sia, editor, Sian Hoon, Teoh, editor, Md Shamsudin, Nurshamshida, editor, and Legino, Rafeah, editor

Published

2024

6. Multi-algorithmic Genetic Disease Detection Using Pupillometry

Author

Lakshmi, A. Jaya, Gajre, Shruti, Burra, Akhil, Reddy, Navar Koushik, Rocha, Álvaro, Series Editor, Hameurlain, Abdelkader, Editorial Board Member, Idri, Ali, Editorial Board Member, Vaseashta, Ashok, Editorial Board Member, Dubey, Ashwani Kumar, Editorial Board Member, Montenegro, Carlos, Editorial Board Member, Laporte, Claude, Editorial Board Member, Moreira, Fernando, Editorial Board Member, Peñalvo, Francisco, Editorial Board Member, Dzemyda, Gintautas, Editorial Board Member, Mejia-Miranda, Jezreel, Editorial Board Member, Hall, Jon, Editorial Board Member, Piattini, Mário, Editorial Board Member, Holanda, Maristela, Editorial Board Member, Tang, Mincong, Editorial Board Member, Ivanovíc, Mirjana, Editorial Board Member, Muñoz, Mirna, Editorial Board Member, Kanth, Rajeev, Editorial Board Member, Anwar, Sajid, Editorial Board Member, Herawan, Tutut, Editorial Board Member, Colla, Valentina, Editorial Board Member, Devedzic, Vladan, Editorial Board Member, Ragavendiran, S. D. Prabu, editor, Pavaloaia, Vasile Daniel, editor, Mekala, M. S., editor, and Cabezuelo, Antonio Sarasa, editor

Published

2024

7. Clinical decision support system supported interventions in hospitalized older patients: a matter of natural course and adequate timing

Author

NA Zwietering, AEMJH Linkens, D Kurstjens, PHM van der Kuy, N van Nie-Visser, BPA van de Loo, KPGM Hurkens, and B Spaetgens

Subjects

Medication review, Drug-related problems, Clinical Decision Support System (CDSS), Older patients, Potentially inappropriate prescribing (PIP), Geriatrics, RC952-954.6

Abstract

Abstract Background Drug-related problems (DRPs) and potentially inappropriate prescribing (PIP) are associated with adverse patient and health care outcomes. In the setting of hospitalized older patients, Clinical Decision Support Systems (CDSSs) could reduce PIP and therefore improve clinical outcomes. However, prior research showed a low proportion of adherence to CDSS recommendations by clinicians with possible explanatory factors such as little clinical relevance and alert fatigue. Objective To investigate the use of a CDSS in a real-life setting of hospitalized older patients. We aim to (I) report the natural course and interventions based on the top 20 rule alerts (the 20 most frequently generated alerts per clinical rule) of generated red CDSS alerts (those requiring action) over time from day 1 to 7 of hospitalization; and (II) to explore whether an optimal timing can be defined (in terms of day per rule). Methods All hospitalized patients aged ≥ 60 years, admitted to Zuyderland Medical Centre (the Netherlands) were included. The evaluation of the CDSS was investigated using a database used for standard care. Our CDSS was run daily and was evaluated on day 1 to 7 of hospitalization. We collected demographic and clinical data, and moreover the total number of CDSS alerts; the total number of top 20 rule alerts; those that resulted in an action by the pharmacist and the course of outcome of the alerts on days 1 to 7 of hospitalization. Results In total 3574 unique hospitalized patients, mean age 76.7 (SD 8.3) years and 53% female, were included. From these patients, in total 8073 alerts were generated; with the top 20 of rule alerts we covered roughly 90% of the total. For most rules in the top 20 the highest percentage of resolved alerts lies somewhere between day 4 and 5 of hospitalization, after which there is equalization or a decrease. Although for some rules, there is a gradual increase in resolved alerts until day 7. The level of resolved rule alerts varied between the different clinical rules; varying from > 50–70% (potassium levels, anticoagulation, renal function) to less than 25%. Conclusion This study reports the course of the 20 most frequently generated alerts of a CDSS in a setting of hospitalized older patients. We have shown that for most rules, irrespective of an intervention by the pharmacist, the highest percentage of resolved rules is between day 4 and 5 of hospitalization. The difference in level of resolved alerts between the different rules, could point to more or less clinical relevance and advocates further research to explore ways of optimizing CDSSs by adjustment in timing and number of alerts to prevent alert fatigue.

Published

2024

8. Clinical decision support system supported interventions in hospitalized older patients: a matter of natural course and adequate timing

Author

Zwietering, NA, Linkens, AEMJH, Kurstjens, D, van der Kuy, PHM, van Nie-Visser, N, van de Loo, BPA, Hurkens, KPGM, and Spaetgens, B

Published

2024

9. A quality improvement study of the implementation and initial results of a pragmatic clinical decision support system in the community pharmacy setting.

Author

Bogaerts, Carolien, Schoenmaekers, Nele, Haems, Marleen, Storme, Michael, and De Loof, Hans

Subjects

CLINICAL decision support systems, DRUGSTORES, DRUG side effects, COMMUNITY support, ARRHYTHMIA, MEDICATION therapy management

Abstract

Background: A six year collaboration between academics, community pharmacists and informaticians, led to the development of nine guidelines for a clinical decision support system, enhancing community pharmacists' ability to address drug-related problems and improve care. Aim: The objective of this study was to assess the effectiveness of clinical decision support system rules in enhancing medication management within the community pharmacy setting. This was achieved through retrospective monitoring of real-world usage and measuring the pharmacotherapeutic impact of the rules. Method: In 2019, a retrospective observational evaluation appraised the acceptance rate of the clinical decision support system components in 490 Belgian pharmacies. Among these, 51 pharmacies underwent a longitudinal analysis involving (i) co-prescription of methotrexate and folic acid, (ii) gastroprotection with non-steroidal anti-inflammatory drugs, and (iii) drug combinations causing QT prolongation. The study period spanned one year pre-launch, one year post-launch, and two years post-launch. Results: Of the targeted pharmacies, 80% used 7 of the 9 rules. After four years, methotrexate-folic acid co-prescription increased 4%, reaching 79.8%. Gastroprotection improved by 3% among older patients and 7.47% in younger individuals (< 70 year) with multiple risk factors. The QT prolongation rules faced implementation difficulties. Conclusion: Pharmacists' acceptance of the developed rules was high and coincided with a decline in drug-related problems, holding potential public health impact. This real-world data can inform the future implementation of such systems, as it demonstrated the need for more detailed data-gathering and more intensive training of pharmacists in the handling of more complex problems such as QT prolongation. [ABSTRACT FROM AUTHOR]

Published

2024

10. On Scene Injury Severity Prediction (OSISP) model for trauma developed using the Swedish Trauma Registry

Author

Anna Bakidou, Eva-Corina Caragounis, Magnus Andersson Hagiwara, Anders Jonsson, Bengt Arne Sjöqvist, and Stefan Candefjord

Subjects

Artificial Intelligence (AI), Clinical Decision Support System (CDSS), On Scene Injury Severity Prediction (OSISP), Prehospital care, Trauma, Field triage, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Providing optimal care for trauma, the leading cause of death for young adults, remains a challenge e.g., due to field triage limitations in assessing a patient’s condition and deciding on transport destination. Data-driven On Scene Injury Severity Prediction (OSISP) models for motor vehicle crashes have shown potential for providing real-time decision support. The objective of this study is therefore to evaluate if an Artificial Intelligence (AI) based clinical decision support system can identify severely injured trauma patients in the prehospital setting. Methods The Swedish Trauma Registry was used to train and validate five models – Logistic Regression, Random Forest, XGBoost, Support Vector Machine and Artificial Neural Network – in a stratified 10-fold cross validation setting and hold-out analysis. The models performed binary classification of the New Injury Severity Score and were evaluated using accuracy metrics, area under the receiver operating characteristic curve (AUC) and Precision-Recall curve (AUCPR), and under- and overtriage rates. Results There were 75,602 registrations between 2013–2020 and 47,357 (62.6%) remained after eligibility criteria were applied. Models were based on 21 predictors, including injury location. From the clinical outcome, about 40% of patients were undertriaged and 46% were overtriaged. Models demonstrated potential for improved triaging and yielded AUC between 0.80–0.89 and AUCPR between 0.43–0.62. Conclusions AI based OSISP models have potential to provide support during assessment of injury severity. The findings may be used for developing tools to complement field triage protocols, with potential to improve prehospital trauma care and thereby reduce morbidity and mortality for a large patient population.

Published

2023

11. Acceptance of a digital therapy recommender system for psoriasis

Author

Lisa Graf, Falko Tesch, Felix Gräßer, Lorenz Harst, Doreen Siegels, Jochen Schmitt, and Susanne Abraham

Subjects

Psoriasis, Therapy decision, Clinical decision support system (CDSS), Survey, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background About 2% of the German population are affected by psoriasis. A growing number of cost-intensive systemic treatments are available. Surveys have shown high proportions of patients with moderate to severe psoriasis are not adequately treated despite a high disease burden. Digital therapy recommendation systems (TRS) may help implement guideline-based treatment. However, little is known about the acceptance of such clinical decision support systems (CDSSs). Therefore, the aim of the study was to access the acceptance of a prototypical TRS demonstrator. Methods Three scenarios (potential test patients with psoriasis but different sociodemographic and clinical characteristics, previous treatments, desire to have children, and multiple comorbidities) were designed in the demonstrator. The TRS demonstrator and test patients were presented to a random sample of 76 dermatologists attending a national dermatology conference in a cross-sectional face-to-face survey with case vignettes. The dermatologist were asked to rate the demonstrator by system usability scale (SUS), whether they would use it for certain patients populations and barriers of usage. Reasons for potential usage of the TRS demonstrator were tested via a Poisson regression with robust standard errors. Results Acceptance of the TRS was highest for patients eligible for systemic therapy (82%). 50% of participants accepted the system for patients with additional comorbidities and 43% for patients with special subtypes of psoriasis. Dermatologists in the outpatient sector or with many patients per week were less willing to use the TRS for patients with special psoriasis-subtypes. Dermatologists rated the demonstrator as acceptable with an mean SUS of 76.8. Participants whose SUS was 10 points above average were 27% more likely to use TRS for special psoriasis-subtypes. The main barrier in using the TRS was time demand (47.4%). Participants who perceived time as an obstacle were 22.3% less willing to use TRS with systemic therapy patients. 27.6% of physicians stated that they did not understand exactly how the recommendation was generated by the TRS, with no effect on the preparedness to use the system. Conclusion The considerably high acceptance and the preparedness to use the psoriasis CDSS suggests that a TRS appears to be implementable in routine healthcare and may improve clinical care. Main barrier is the additional time demand posed on dermatologists in a busy clinical setting. Therefore, it will be a major challenge to identify a limited set of variables that still allows a valid recommendation with precise prediction of the patient-individual benefits and harms.

Published

2023

12. On Scene Injury Severity Prediction (OSISP) model for trauma developed using the Swedish Trauma Registry.

Author

Bakidou, Anna, Caragounis, Eva-Corina, Andersson Hagiwara, Magnus, Jonsson, Anders, Sjöqvist, Bengt Arne, and Candefjord, Stefan

Subjects

*CLINICAL decision support systems, *TRAUMA registries, *ARTIFICIAL intelligence, *RECEIVER operating characteristic curves, *TRAFFIC accidents, *EMERGENCY medical services

Abstract

Background: Providing optimal care for trauma, the leading cause of death for young adults, remains a challenge e.g., due to field triage limitations in assessing a patient's condition and deciding on transport destination. Data-driven On Scene Injury Severity Prediction (OSISP) models for motor vehicle crashes have shown potential for providing real-time decision support. The objective of this study is therefore to evaluate if an Artificial Intelligence (AI) based clinical decision support system can identify severely injured trauma patients in the prehospital setting. Methods: The Swedish Trauma Registry was used to train and validate five models – Logistic Regression, Random Forest, XGBoost, Support Vector Machine and Artificial Neural Network – in a stratified 10-fold cross validation setting and hold-out analysis. The models performed binary classification of the New Injury Severity Score and were evaluated using accuracy metrics, area under the receiver operating characteristic curve (AUC) and Precision-Recall curve (AUCPR), and under- and overtriage rates. Results: There were 75,602 registrations between 2013–2020 and 47,357 (62.6%) remained after eligibility criteria were applied. Models were based on 21 predictors, including injury location. From the clinical outcome, about 40% of patients were undertriaged and 46% were overtriaged. Models demonstrated potential for improved triaging and yielded AUC between 0.80–0.89 and AUCPR between 0.43–0.62. Conclusions: AI based OSISP models have potential to provide support during assessment of injury severity. The findings may be used for developing tools to complement field triage protocols, with potential to improve prehospital trauma care and thereby reduce morbidity and mortality for a large patient population. [ABSTRACT FROM AUTHOR]

Published

2023

13. Investigating the Role of Clinical Decision Support Systems in Reducing Medical Errors

Author

Faezeh Hajieslam and Zohreh Javanmard

Subjects

clinical decision support system (cdss), medical error, physicians, nurses, Computer applications to medicine. Medical informatics, R858-859.7, Medical technology, R855-855.5

Abstract

Introduction: This study aimed to investigate the role of clinical decision support systems in reducing medical errors from the perspective of physicians and nurses in the teaching and therapeutic hospitals. Method: This descriptive cross-sectional study was conducted in 2021-2022 in two teaching and therapeutic hospitals in Ferdows City, Iran. Physicians and nurses have participated in the research. In this study, the census method was used, and the research community was considered the research sample. The questionnaire of Ariyai et al. was used as a data collection tool. After collecting the questionnaires, the data were analyzed using descriptive statistics methods. Results: 42 medical staff were included in the study. From a physician’s point of view, decision support systems can be helpful by reducing the risk of severe allergic reactions and drug interactions (60%), quick access to patient records (50%), and computerized order registries (30%). From nurses' point of view, eliminating problems related to doctors' handwriting (25%), avoiding disremember of repeating tests or imaging (18.8%), quick access to updated information during work (12.5%), and reducing the risk of embolism (9.4%) are the advantages of clinical decision support systems. Conclusion: due to the importance of developing a decision support system in hospitals and measuring the readiness of medical staff to adopt it, it is suggested that the necessary trainings be provided.

Published

2023

14. Acceptance of a digital therapy recommender system for psoriasis.

Author

Graf, Lisa, Tesch, Falko, Gräßer, Felix, Harst, Lorenz, Siegels, Doreen, Schmitt, Jochen, and Abraham, Susanne

Subjects

*CLINICAL decision support systems, *RECOMMENDER systems, *PSORIASIS, *POISSON regression

Abstract

Background: About 2% of the German population are affected by psoriasis. A growing number of cost-intensive systemic treatments are available. Surveys have shown high proportions of patients with moderate to severe psoriasis are not adequately treated despite a high disease burden. Digital therapy recommendation systems (TRS) may help implement guideline-based treatment. However, little is known about the acceptance of such clinical decision support systems (CDSSs). Therefore, the aim of the study was to access the acceptance of a prototypical TRS demonstrator. Methods: Three scenarios (potential test patients with psoriasis but different sociodemographic and clinical characteristics, previous treatments, desire to have children, and multiple comorbidities) were designed in the demonstrator. The TRS demonstrator and test patients were presented to a random sample of 76 dermatologists attending a national dermatology conference in a cross-sectional face-to-face survey with case vignettes. The dermatologist were asked to rate the demonstrator by system usability scale (SUS), whether they would use it for certain patients populations and barriers of usage. Reasons for potential usage of the TRS demonstrator were tested via a Poisson regression with robust standard errors. Results: Acceptance of the TRS was highest for patients eligible for systemic therapy (82%). 50% of participants accepted the system for patients with additional comorbidities and 43% for patients with special subtypes of psoriasis. Dermatologists in the outpatient sector or with many patients per week were less willing to use the TRS for patients with special psoriasis-subtypes. Dermatologists rated the demonstrator as acceptable with an mean SUS of 76.8. Participants whose SUS was 10 points above average were 27% more likely to use TRS for special psoriasis-subtypes. The main barrier in using the TRS was time demand (47.4%). Participants who perceived time as an obstacle were 22.3% less willing to use TRS with systemic therapy patients. 27.6% of physicians stated that they did not understand exactly how the recommendation was generated by the TRS, with no effect on the preparedness to use the system. Conclusion: The considerably high acceptance and the preparedness to use the psoriasis CDSS suggests that a TRS appears to be implementable in routine healthcare and may improve clinical care. Main barrier is the additional time demand posed on dermatologists in a busy clinical setting. Therefore, it will be a major challenge to identify a limited set of variables that still allows a valid recommendation with precise prediction of the patient-individual benefits and harms. [ABSTRACT FROM AUTHOR]

Published

2023

15. Patient views on asthma diagnosis and how a clinical decision support system could help: A qualitative study

Author

Anne Canny, Eddie Donaghy, Victoria Murray, Leo Campbell, Carol Stonham, Andrew Bush, Brian McKinstry, Heather Milne, Hilary Pinnock, and Luke Daines

Subjects

asthma diagnosis, clinical decision support system (cdss), GPs and asthma nurses, patient perspectives, primary care, Medicine (General), R5-920, Public aspects of medicine, RA1-1270

Abstract

Abstract Introduction Making a diagnosis of asthma can be challenging for clinicians and patients. A clinical decision support system (CDSS) for use in primary care including a patient‐facing mode, could change how information is shared between patients and healthcare professionals and improve the diagnostic process. Methods Participants diagnosed with asthma within the last 5 years were recruited from general practices across four UK regions. In‐depth interviews were used to explore patient experiences relating to their asthma diagnosis and to understand how a CDSS could be used to improve the diagnostic process for patients. Interviews were audio recorded, transcribed verbatim and analysed using a thematic approach. Results Seventeen participants (12 female) undertook interviews, including 14 individuals and 3 parents of children with asthma. Being diagnosed with asthma was generally considered an uncertain process. Participants felt a lack of consultation time and poor communication affected their understanding of asthma and what to expect. Had the nature of asthma and the steps required to make a diagnosis been explained more clearly, patients felt their understanding and engagement in asthma self‐management could have been improved. Participants considered that a CDSS could provide resources to support the diagnostic process, prompt dialogue, aid understanding and support shared decision‐making. Conclusion Undergoing an asthma diagnosis was uncertain for patients if their ideas and concerns were not addressed by clinicians and were influenced by a lack of consultation time and limitations in communication. An asthma diagnosis CDSS could provide structure and an interface to prompt dialogue, provide visuals about asthma to aid understanding and encourage patient involvement. Patient and Public Contribution Prespecified semistructured interview topic guides (young person and adult versions) were developed by the research team and piloted with members of the Asthma UK Centre for Applied Research Patient and Public Involvement (PPI) group. Findings were regularly discussed within the research group and with PPI colleagues to aid the interpretation of data.

Published

2023

16. Perancangan Clinical Decision Support System (CDSS) untuk Drug Drug Interaction (DDI) pada e-Prescription

Author

Resia Perwirani and Ika Puspitasari

Subjects

clinical decision support system (cdss), drug drug interaction (ddi), user centered design, Pharmacy and materia medica, RS1-441

Abstract

Not all drugs side-effect that occur can be avoided, but those caused by drug-drug interactions (DDI) are among the most likely to be prevented and managed due to their predictability. The increasing number of drugs co-prescribed, affects the potential for drug interactions exponentially. Clinical Decision Support System (CDSS) is a promising strategy to prevent patient safety risks caused by drug interactions. This study aims to design a CDSS for DDI on e-Prescription. This research is qualitative study with action research design. The research was carried out at Digital Health Innovation Studio (DHIS) UGM, and at Budi Rahayu Hospital Magelang with the implementation time November 2021 - April 2022. Data collection for user needs analysis was carried out by interviewing management, doctors and pharmacists at the hospital, and also pharmacologists. Design and development of CDSS-DDI was executed in collaboration with DHIS UGM programmers. The evaluation was done by interviews and a System Usability Scale (SUS) questionnaire filled in by 17 system-related users. CDSS-DDI successfully developed according to user needs, it can be accessed by doctors and pharmacy units. The drug interaction warning display pop-up appears on one screen in the e-Prescription menu with a description of drug interactions in Bahasa. Drug interaction data refers to the National Drug Information Center (PIONas) which is managed by the POM. CDSS-DDI then implemented in hospital after going through socialization. Based on evaluation with SUS data processing tools, the CDSS-DDI received a score of 83 in the acceptable category and excellent rating. Based on results of evaluation interviews, CDSS for DDI is considered to have been successfully developed with the principle of user centered design and optimally efficient to help improve the quality of patient care.

Published

2023

17. The Role of Artificial Intelligence in Health Care

Author

Kocakoç, İpek Deveci, Çalıyurt, Kıymet Tunca, Series Editor, and Bozkuş Kahyaoğlu, Sezer, editor

Published

2022

18. Improving CBR Retrieval Process Through Multilabel Text Categorization for Health Care of Childhood Traumatic Brain Injuries in Road Accident

Author

Benfriha, Hichem, Atmani, Baghdad, Barigou, Fatiha, Henni, Fouad, Khemliche, Belarbi, Fatima, Saadi, Douah, Ali, Addou, Zakaria Zoheir, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Yang, Xin-She, editor, Sherratt, Simon, editor, Dey, Nilanjan, editor, and Joshi, Amit, editor

Published

2022

19. Multimodality Video Acquisition System for the Assessment of Vital Distress in Children.

Author

Boivin, Vincent, Shahriari, Mana, Faure, Gaspar, Mellul, Simon, Tiassou, Edem Donatien, Jouvet, Philippe, and Noumeir, Rita

Subjects

*PSYCHOLOGICAL distress, *CRITICALLY ill children, *CLINICAL decision support systems, *VIDEO monitors, *MEDICAL databases, *MEDICAL record databases, *PEDIATRIC intensive care

Abstract

In children, vital distress events, particularly respiratory, go unrecognized. To develop a standard model for automated assessment of vital distress in children, we aimed to construct a prospective high-quality video database for critically ill children in a pediatric intensive care unit (PICU) setting. The videos were acquired automatically through a secure web application with an application programming interface (API). The purpose of this article is to describe the data acquisition process from each PICU room to the research electronic database. Using an Azure Kinect DK and a Flir Lepton 3.5 LWIR attached to a Jetson Xavier NX board and the network architecture of our PICU, we have implemented an ongoing high-fidelity prospectively collected video database for research, monitoring, and diagnostic purposes. This infrastructure offers the opportunity to develop algorithms (including computational models) to quantify vital distress in order to evaluate vital distress events. More than 290 RGB, thermographic, and point cloud videos of each 30 s have been recorded in the database. Each recording is linked to the patient's numerical phenotype, i.e., the electronic medical health record and high-resolution medical database of our research center. The ultimate goal is to develop and validate algorithms to detect vital distress in real time, both for inpatient care and outpatient management. [ABSTRACT FROM AUTHOR]

Published

2023

20. Challenge in hyponatremic patients – the potential of a laboratory-based decision support system for hyponatremia to improve patient's safety.

Author

Sicker, Tom, Federbusch, Martin, Eckelt, Felix, Isermann, Berend, Fenske, Wiebke, Fries, Charlotte, Schmidt, Maria, and Kaiser, Thorsten

Subjects

*HOSPITAL admission & discharge, *CLINICAL decision support systems, *DECISION support systems, *PATIENT safety, *HYPONATREMIA, *MEDICAL laboratories, *LENGTH of stay in hospitals, *FAST reactors

Abstract

Hyponatremia is the most frequent electrolyte disorder in hospitalized patients with increased mortality and morbidity. In this study, we evaluated the follow-up diagnostic, the risk of inadequate fast correction and the outcome of patients with profound hyponatremia (pHN), defined as a blood sodium concentration below 120 mmol/L. The aim was to identify a promising approach for a laboratory-based clinical decision support system (CDSS). This retrospective study included 378,980 blood sodium measurements of 83,315 cases at a German tertiary care hospital. Hospitalized cases with pHN (n=211) were categorized into two groups by the time needed for a follow-up measurement to be performed (time to control, TTC) as either <12 h (group 1: "TTC≤12 h", n=118 cases) or >12 h (group 2: "TTC>12 h", n=93 cases). Length of hospital stay, sodium level at discharge, ward transfers, correction of hyponatremia, and risk of osmotic demyelination syndrome (ODS) due to inadequate fast correction were evaluated with regard to the TTC of sodium blood concentration. pHN was detected in 1,050 measurements (0.3%) in 211 cases. Cases, in which follow-up diagnostics took longer (TTC>12 h), achieved a significantly lower sodium correction during their hospitalization (11.2 vs. 16.7 mmol/L, p<0.001), were discharged more frequently in hyponatremic states (<135 mmol/L; 58 (62.4%) vs. 43 (36.4%), p<0.001) and at lower sodium blood levels (131.2 vs. 135.0 mmol/L, p<0.001). Furthermore, for these patients there was a trend toward an increased length of hospital stay (13.1 vs. 8.5 days, p=0.089), as well as an increased risk of inadequate fast correction (p<0.001). Our study shows that less frequent follow-up sodium measurements in pHN are associated with worse outcomes. Patients with a prolonged TTC are at risk of insufficient correction of hyponatremia, reduced sodium values at discharge, and possible overcorrection. Our results suggest that a CDSS that alerts treating physicians when a control time of >12 h is exceeded could improve patient care in the long term. We are initiating a prospective study to investigate the benefits of our self-invented CDSS (www.ampel.care) for patients with pHN. [ABSTRACT FROM AUTHOR]

Published

2023

21. Detection of Drug-Related Problems through a Clinical Decision Support System Used by a Clinical Pharmacy Team.

Author

Robert, Laurine, Cuvelier, Elodie, Rousselière, Chloé, Gautier, Sophie, Odou, Pascal, Beuscart, Jean-Baptiste, and Décaudin, Bertrand

Subjects

CLINICAL decision support systems, SCIENTIFIC observation, ACADEMIC medical centers, ORGANIZATIONAL structure, RETROSPECTIVE studies, PHARMACY databases, DRUG monitoring, DESCRIPTIVE statistics, CHI-squared test, DRUG side effects, PHYSICIANS, DATA analysis software, PATIENT safety

Abstract

Clinical decision support systems (CDSSs) are intended to detect drug-related problems in real time and might be of value in healthcare institutions with a clinical pharmacy team. The objective was to report the detection of drug-related problems through a CDSS used by an existing clinical pharmacy team over 22 months. It was a retrospective single-center study. A CDSS was integrated in the clinical pharmacy team in July 2019. The investigating clinical pharmacists evaluated the pharmaceutical relevance and physician acceptance rates for critical alerts (i.e., alerts for drug-related problems arising during on-call periods) and noncritical alerts (i.e., prevention alerts arising during the pharmacist's normal work day) from the CDSS. Of the 3612 alerts triggered, 1554 (43.0%) were critical, and 594 of these 1554 (38.2%) prompted a pharmacist intervention. Of the 2058 (57.0%) noncritical alerts, 475 of these 2058 (23.1%) prompted a pharmacist intervention. About two-thirds of the total pharmacist interventions (PI) were accepted by physicians; the proportion was 71.2% for critical alerts (i.e., 19 critical alerts per month vs. 12.5 noncritical alerts per month). Some alerts were pharmaceutically irrelevant—mainly due to poor performance by the CDSS. Our results suggest that a CDSS is a useful decision-support tool for a hospital pharmacist's clinical practice. It can help to prioritize drug-related problems by distinguishing critical and noncritical alerts. However, building an appropriate organizational structure around the CDSS is important for correct operation. [ABSTRACT FROM AUTHOR]

Published

2023

22. Patient views on asthma diagnosis and how a clinical decision support system could help: A qualitative study.

Author

Canny, Anne, Donaghy, Eddie, Murray, Victoria, Campbell, Leo, Stonham, Carol, Bush, Andrew, McKinstry, Brian, Milne, Heather, Pinnock, Hilary, and Daines, Luke

Subjects

*ASTHMA diagnosis, *RESEARCH methodology, *INTERVIEWING, *PATIENTS' attitudes, *QUALITATIVE research, *RESEARCH funding, *THEMATIC analysis, *JUDGMENT sampling

Abstract

Introduction: Making a diagnosis of asthma can be challenging for clinicians and patients. A clinical decision support system (CDSS) for use in primary care including a patient‐facing mode, could change how information is shared between patients and healthcare professionals and improve the diagnostic process. Methods: Participants diagnosed with asthma within the last 5 years were recruited from general practices across four UK regions. In‐depth interviews were used to explore patient experiences relating to their asthma diagnosis and to understand how a CDSS could be used to improve the diagnostic process for patients. Interviews were audio recorded, transcribed verbatim and analysed using a thematic approach. Results: Seventeen participants (12 female) undertook interviews, including 14 individuals and 3 parents of children with asthma. Being diagnosed with asthma was generally considered an uncertain process. Participants felt a lack of consultation time and poor communication affected their understanding of asthma and what to expect. Had the nature of asthma and the steps required to make a diagnosis been explained more clearly, patients felt their understanding and engagement in asthma self‐management could have been improved. Participants considered that a CDSS could provide resources to support the diagnostic process, prompt dialogue, aid understanding and support shared decision‐making. Conclusion: Undergoing an asthma diagnosis was uncertain for patients if their ideas and concerns were not addressed by clinicians and were influenced by a lack of consultation time and limitations in communication. An asthma diagnosis CDSS could provide structure and an interface to prompt dialogue, provide visuals about asthma to aid understanding and encourage patient involvement. Patient and Public Contribution: Prespecified semistructured interview topic guides (young person and adult versions) were developed by the research team and piloted with members of the Asthma UK Centre for Applied Research Patient and Public Involvement (PPI) group. Findings were regularly discussed within the research group and with PPI colleagues to aid the interpretation of data. [ABSTRACT FROM AUTHOR]

Published

2023

23. Development and assessment of PharmaCheck: an electronic screening tool for the prevention of twenty major adverse drug events

Author

Christian Skalafouris, Jean-Luc Reny, Jérôme Stirnemann, Olivier Grosgurin, François Eggimann, Damien Grauser, Daniel Teixeira, Megane Jermini, Christel Bruggmann, Pascal Bonnabry, and Bertrand Guignard

Subjects

Clinical pharmacy, Clinical decision support system (CDSS), Rule-based system, Clinical rules, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Adverse drug events (ADEs) can be prevented by deploying clinical decision support systems (CDSS) that directly assist physicians, via computerized order entry systems, and clinical pharmacists performing medication reviews as part of medical rounds. However, physicians using CDSS are known to be exposed to the alert-fatigue phenomenon. Our study aimed to assess the performance of PharmaCheck—a CDSS to help clinical pharmacists detect high-risk situations with the potential to lead to ADEs—and its impact on clinical pharmacists’ activities. Methods Twenty clinical rules, divided into four risk classes, were set for the daily screening of high-risk situations in the electronic health records of patients admitted to our General Internal Medicine Department. Alerts to clinical pharmacists encouraged them to telephone prescribers and suggest any necessary treatment adjustments. PharmaCheck’s performance was assessed using the intervention’s positive predictive value (PPV), which characterizes the proportion of interventions for each alert triggered. PharmaCheck’s impact was assessed by considering clinical pharmacists as a filter for ruling out futile alerts and by comparing the final clinical PPV with a pharmacist (the proportion of interventions that led to a change in the medical regimen) to the final clinical PPV without a pharmacist. Results Over 132 days, 447 alerts were triggered for 383 patients, leading to 90 interventions (overall intervention PPV = 20.1%). By risk class, intervention PPVs made up 26.9% (n = 65/242) of abnormal laboratory value alerts, 3.1% (4/127) of alerts for contraindicated medications or medications to be used with caution, 28.2% (20/71) of drug–drug interaction alerts, and 14.3% (1/7) of inadequate mode of administration alerts. Clinical PPVs reached 71.0% (64/90) when pharmacists filtered alerts and 14% (64/242) if they were not doing it. Conclusion PharmaCheck enabled clinical pharmacists to improve their traditional processes and broaden their coverage by focusing on 20 high-risk situations. Alert management by pharmacists seemed to be a more effective way of preventing risky situations and alert-fatigue than a model addressing alerts to physicians exclusively. Some fine-tuning could enhance PharmaCheck's performance by considering the information quality of triggers, the variability of clinical settings, and the fact that some prescription processes are already highly secured.

Published

2022

24. The Effects of Implementing Clinical Decision Support Systems on the Diagnosis, Treatment and Management of Cancers: A Systematic Review

Author

saman Mohammadpour, Reza Rabiei, Elham Shabahrami, Kamyar Fathisalari, Maryam Khakzad, and Mostafa Langarizadeh

Subjects

clinical decision support system (cdss), clinical outcome, effect, decision making, cancer, Public aspects of medicine, RA1-1270

Abstract

Background and Aim: Cancer is the second leading cause of death in the world, which leads to the death of more than 10 million people in the world every year. Its early diagnosis, management and proper treatment play an important role in reducing complications and mortality. One of the support tools in early diagnosis, treatment and management of this disease are Clinical Decision Support System (CDSS), which are divided into two groups, rule-based and non-rule-based. Rule-based decision support systems are created based on clinical guidelines, while non-rule-based decision support systems use machine learning. In this research, the effects of decision support systems, rule-based and non-rule-based, on cancer diagnosis, treatment and management were measured. Materials and Methods: The present study was conducted using a systematic review method, which was conducted by searching the Web of Science, Scopus, IEEE and PubMED databases until 12/31/2021. After removing duplicates and evaluating the characteristics of the inclusion and exclusion criteria, studies related to the goal were selected. The selection of articles was based on the title, abstract and full text The data collection tool was the data extraction form, which included year of study, type of study, system of body, organ of body, the service provided by the decision support system, type of decision support system, effect, effect index and the score of effect index. Narrative synthesis were used for data analysis. Results: Out of 768 articles, 16 articles related to the objectives of the study were identified. Studies were presented in two categories of clinical decision-support systems: Rule-based and non-Rule based. The effects evaluated in the clinical decision support systems were Rule-based, dose adjustment, symptoms, adherence to treatment guidelines, care time, smoking, need for chemotherapy and pain management, all of which except pain management were significant and positive. The effects evaluated were in the category of non-Rule based clinical decision support systems, diagnostic and therapeutic decisions, controlling neutropenia, all of which were significant and positive except controlling neutropenia. Conclusion: The results obtained for the effectiveness of both Rule-based and non-Rule-based decision support systems indicated different benefits of these two categories. Therefore, using their combination in the field of cancer can bring very useful results.

Published

2022

25. An Overview of Clinical Decision Support System (CDSS) as a Computational Tool and Its Applications in Public Health

Author

Gupta, Praveen Kumar, Ramachandran, Abijith Trichur, Keerthi, Anusha Mysore, Dave, Preshita Sanjay, Giridhar, Swathi, Kallapur, Shweta Sudam, Saikia, Achisha, Chlamtac, Imrich, Series Editor, Kumar, Raman, editor, and Paiva, Sara, editor

Published

2021

26. Usability of the IDDEAS prototype in child and adolescent mental health services: A qualitative study for clinical decision support system development

Author

Carolyn Clausen, Bennett Leventhal, Øystein Nytrø, Roman Koposov, Thomas Brox Røst, Odd Sverre Westbye, Kaban Koochakpour, Thomas Frodl, Line Stien, and Norbert Skokauskas

Subjects

clinical decision support system (CDSS), child and adolescent mental health services (CAMHS), children and adolescents, attention deficit and hyperactivity disorder (ADHD), usability, Psychiatry, RC435-571

Abstract

IntroductionChild and adolescent mental health services (CAMHS) clinical decision support system (CDSS) provides clinicians with real-time support as they assess and treat patients. CDSS can integrate diverse clinical data for identifying child and adolescent mental health needs earlier and more comprehensively. Individualized Digital Decision Assist System (IDDEAS) has the potential to improve quality of care with enhanced efficiency and effectiveness.MethodsWe examined IDDEAS usability and functionality in a prototype for attention deficit hyperactivity disorder (ADHD), using a user-centered design process and qualitative methods with child and adolescent psychiatrists and clinical psychologists. Participants were recruited from Norwegian CAMHS and were randomly assigned patient case vignettes for clinical evaluation, with and without IDDEAS. Semi-structured interviews were conducted as one part of testing the usability of the prototype following a five-question interview guide. All interviews were recorded, transcribed, and analyzed following qualitative content analysis.ResultsParticipants were the first 20 individuals from the larger IDDEAS prototype usability study. Seven participants explicitly stated a need for integration with the patient electronic health record system. Three participants commended the step-by-step guidance as potentially helpful for novice clinicians. One participant did not like the aesthetics of the IDDEAS at this stage. All participants were pleased about the display of the patient information along with guidelines and suggested that wider guideline coverage will make IDDEAS much more useful. Overall, participants emphasized the importance of maintaining the clinician as the decision-maker in the clinical process, and the overall potential utility of IDDEAS within Norwegian CAMHS.ConclusionChild and adolescent mental health services psychiatrists and psychologists expressed strong support for the IDDEAS clinical decision support system if better integrated in daily workflow. Further usability assessments and identification of additional IDDEAS requirements are necessary. A fully functioning, integrated version of IDDEAS has the potential to be an important support for clinicians in the early identification of risks for youth mental disorders and contribute to improved assessment and treatment of children and adolescents.

Published

2023

27. Learning meaningful latent space representations for patient risk stratification: Model development and validation for dengue and other acute febrile illness

Author

Bernard Hernandez, Oliver Stiff, Damien K. Ming, Chanh Ho Quang, Vuong Nguyen Lam, Tuan Nguyen Minh, Chau Nguyen Van Vinh, Nguyet Nguyen Minh, Huy Nguyen Quang, Lam Phung Khanh, Tam Dong Thi Hoai, Trung Dinh The, Trieu Huynh Trung, Bridget Wills, Cameron P. Simmons, Alison H. Holmes, Sophie Yacoub, Pantelis Georgiou, and on behalf of the Vietnam ICU Translational Applications Laboratory (VITAL) investigators

Subjects

autoencoder (AE) neural networks, unsupervised learning, similarity retrieval, visualisation, clinical decision support system (CDSS), dengue, Medicine, Public aspects of medicine, RA1-1270, Electronic computers. Computer science, QA75.5-76.95

Abstract

BackgroundIncreased data availability has prompted the creation of clinical decision support systems. These systems utilise clinical information to enhance health care provision, both to predict the likelihood of specific clinical outcomes or evaluate the risk of further complications. However, their adoption remains low due to concerns regarding the quality of recommendations, and a lack of clarity on how results are best obtained and presented.MethodsWe used autoencoders capable of reducing the dimensionality of complex datasets in order to produce a 2D representation denoted as latent space to support understanding of complex clinical data. In this output, meaningful representations of individual patient profiles are spatially mapped in an unsupervised manner according to their input clinical parameters. This technique was then applied to a large real-world clinical dataset of over 12,000 patients with an illness compatible with dengue infection in Ho Chi Minh City, Vietnam between 1999 and 2021. Dengue is a systemic viral disease which exerts significant health and economic burden worldwide, and up to 5% of hospitalised patients develop life-threatening complications.ResultsThe latent space produced by the selected autoencoder aligns with established clinical characteristics exhibited by patients with dengue infection, as well as features of disease progression. Similar clinical phenotypes are represented close to each other in the latent space and clustered according to outcomes broadly described by the World Health Organisation dengue guidelines. Balancing distance metrics and density metrics produced results covering most of the latent space, and improved visualisation whilst preserving utility, with similar patients grouped closer together. In this case, this balance is achieved by using the sigmoid activation function and one hidden layer with three neurons, in addition to the latent dimension layer, which produces the output (Pearson, 0.840; Spearman, 0.830; Procrustes, 0.301; GMM 0.321).ConclusionThis study demonstrates that when adequately configured, autoencoders can produce two-dimensional representations of a complex dataset that conserve the distance relationship between points. The output visualisation groups patients with clinically relevant features closely together and inherently supports user interpretability. Work is underway to incorporate these findings into an electronic clinical decision support system to guide individual patient management.

Published

2023

28. Clinical Decision Support Systems for Predicting Patients Liable to Acquire Acute Myocardial Infarctions

Author

Wu, Fu-Hsing, Lin, Hsuan-Hung, Chan, Po-Chou, Tseng, Chien-Ming, Chen, Yung-Fu, Lin, Chih-Sheng, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Lu, Yue, editor, Vincent, Nicole, editor, Yuen, Pong Chi, editor, Zheng, Wei-Shi, editor, Cheriet, Farida, editor, and Suen, Ching Y., editor

Published

2020

29. Machine learning using the extreme gradient boosting (XGBoost) algorithm predicts 5-day delta of SOFA score at ICU admission in COVID-19 patients

Author

Jonathan Montomoli, Luca Romeo, Sara Moccia, Michele Bernardini, Lucia Migliorelli, Daniele Berardini, Abele Donati, Andrea Carsetti, Maria Grazia Bocci, Pedro David Wendel Garcia, Thierry Fumeaux, Philippe Guerci, Reto Andreas Schüpbach, Can Ince, Emanuele Frontoni, Matthias Peter Hilty, Mario Alfaro-Farias, MD, Gerardo Vizmanos-Lamotte, MD, PhD, Thomas Tschoellitsch, MD, Jens Meier, MD, Hernán Aguirre-Bermeo, MD, PhD, Janina Apolo, BSc, Alberto Martínez, MD, Geoffrey Jurkolow, MD, Gauthier Delahaye, MD, Emmanuel Novy, MD, Marie-Reine Losser, MD, PhD, Tobias Wengenmayer, MD, Jonathan Rilinger, MD, Dawid L. Staudacher, MD, Sascha David, MD, Tobias Welte, MD, Klaus Stahl, MD, “Agios Pavlos”, Theodoros Aslanidis, MD, PhD, Anita Korsos, MD, Barna Babik, MD, PhD, Reza Nikandish, MD, Emanuele Rezoagli, MD, PhD, Matteo Giacomini, MD, Alice Nova, MD, Alberto Fogagnolo, MD, Savino Spadaro, MD, PhD, Roberto Ceriani, MD, Martina Murrone, MD, Maddalena A. Wu, MD, Chiara Cogliati, MD, Riccardo Colombo, MD, Emanuele Catena, MD, Fabrizio Turrini, MD, MSc, Maria Sole Simonini, MD, Silvia Fabbri, MD, Antonella Potalivo, MD, Francesca Facondini, MD, Gianfilippo Gangitano, MD, Tiziana Perin, MD, Maria Grazia Bocci, MD, Massimo Antonelli, MD, Diederik Gommers, MD, PhD, Raquel Rodríguez-García, MD, Jorge Gámez-Zapata, MD, Xiana Taboada-Fraga, MD, Pedro Castro, MD, Adrian Tellez, MD, Arantxa Lander-Azcona, MD, Jesús Escós-Orta, MD, Maria C. Martín-Delgado, MD, Angela Algaba-Calderon, MD, Diego Franch-Llasat, MD, Ferran Roche-Campo, MD, PhD, Herminia Lozano-Gómez, MD, Begoña Zalba-Etayo, MD, PhD, Marc P. Michot, MD, Alexander Klarer, Rolf Ensner, MD, Peter Schott, MD, Severin Urech, MD, Nuria Zellweger, Lukas Merki, MD, Adriana Lambert, MD, Marcus Laube, MD, Marie M. Jeitziner, RN, PhD, Beatrice Jenni-Moser, RN, MSc, Jan Wiegand, MD, Bernd Yuen, MD, Barbara Lienhardt-Nobbe, Andrea Westphalen, MD, Petra Salomon, MD, Iris Drvaric, MD, Frank Hillgaertner, MD, Marianne Sieber, Alexander Dullenkopf, MD, Lina Petersen, MD, Ivan Chau, MD, Hatem Ksouri, MD, PhD, Govind Oliver Sridharan, MD, Sara Cereghetti, MD, Filippo Boroli, MD, Jerome Pugin, MD, PhD, Serge Grazioli, MD, Peter C. Rimensberger, MD, Christian Bürkle, MD, Julien Marrel, MD, Mirko Brenni, MD, Isabelle Fleisch, MD, Jerome Lavanchy, MD, Marie-Helene Perez, MD, Anne-Sylvie Ramelet, MD, Anja Baltussen Weber, MD, Peter Gerecke, MD, Andreas Christ, MD, Samuele Ceruti, MD, Andrea Glotta, MD, Katharina Marquardt, MD, Karim Shaikh, MD, Tobias Hübner, MD, Thomas Neff, MD, Hermann Redecker, MD, Mallory Moret-Bochatay, MD, FriederikeMeyer zu Bentrup, MD, MBA, Michael Studhalter, MD, Michael Stephan, MD, Jan Brem, MD, Nadine Gehring, MD, Daniela Selz, MD, Didier Naon, MD, Gian-Reto Kleger, MD, Urs Pietsch, MD, Miodrag Filipovic, MD, Anette Ristic, MD, Michael Sepulcri, MD, Antje Heise, MD, Marilene Franchitti Laurent, MD, Jean-Christophe Laurent, MD, Pedro D. Wendel Garcia, MSc, Reto Schuepbach, MD, Dorothea Heuberger, PhD, Philipp Bühler, MD, Silvio Brugger, MD, PhD, Patricia Fodor, MD, Pascal Locher, MD, Giovanni Camen, MD, Tomislav Gaspert, MD, Marija Jovic, MD, Christoph Haberthuer, MD, Roger F. Lussman, MD, and Elif Colak, MD

Subjects

Machine learning, Extreme gradient boosting (XGBoost), COVID-19, Multiple organ failure, Clinical decision support system (CDSS), Organ dysfunction score, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Background: Accurate risk stratification of critically ill patients with coronavirus disease 2019 (COVID-19) is essential for optimizing resource allocation, delivering targeted interventions, and maximizing patient survival probability. Machine learning (ML) techniques are attracting increased interest for the development of prediction models as they excel in the analysis of complex signals in data-rich environments such as critical care. Methods: We retrieved data on patients with COVID-19 admitted to an intensive care unit (ICU) between March and October 2020 from the RIsk Stratification in COVID-19 patients in the Intensive Care Unit (RISC-19-ICU) registry. We applied the Extreme Gradient Boosting (XGBoost) algorithm to the data to predict as a binary outcome the increase or decrease in patients’ Sequential Organ Failure Assessment (SOFA) score on day 5 after ICU admission. The model was iteratively cross-validated in different subsets of the study cohort. Results: The final study population consisted of 675 patients. The XGBoost model correctly predicted a decrease in SOFA score in 320/385 (83%) critically ill COVID-19 patients, and an increase in the score in 210/290 (72%) patients. The area under the mean receiver operating characteristic curve for XGBoost was significantly higher than that for the logistic regression model (0.86 vs. 0.69, P

Published

2021

30. The Impact of Computerized Physician Order Entry (CPOE) Combined with Clinical Decision Support System (CDSS) On Preventing Adverse Drug Reactions In Renal Insufficiency: Systematic Review.

Author

Aldhoayan, Mohammed, Alem, Hosam Fared, and Alduraywish, Wejdan Abdulaziz

Subjects

CLINICAL decision support systems, DRUG side effects, KIDNEY failure, PHYSICIANS, TECHNOLOGICAL innovations, HOSPITAL care quality

Abstract

Background: Renal impairment influences a wide range of interventions, and improper actions may lead to many life-threatening complications. The kidney is one of the most important organs for the metabolism of medications. Adverse drug reactions in renal dysfunctional patients are often overlooked when prescribing medications. Implementing innovative technologies such as Computerized Physician Order Entry (CPOE) and Clinical Decision Support System (CDSS) may alleviate these concerns. This study aims to clarify the impact of implementing CDSS and CPOE technology into the healthcare system environment and preventing ADR in patients suffering from renal insufficiency and diseases by systematically reviewing the literature. Methods: Systematic review was conducted using proper article appraisal, study selection, and results synthesis. Results: We identified 5 out of 168 articles and were included in this review, following appraisal and PRISMA workflow. 2 studies were RCT, 1 quasi-experimental, 1 retrospective, and 1 alternating time-series. 3 studies focused on nephrotoxic medication adjustment in renal impaired patients. 1 study explored the impact of the various CDSS level of sophistication on renal patients. 1 study shed light on the overdosing of ER physicians for renal impaired patients and the impact of implementing a CDSS for better patient's safety. Conclusion: CPOE coupled with CDSS demonstrated an overall positive impact on the quality of care for patients suffering from renal impairment by detecting possible adverse drug reactions. Further, quality research is needed to truly evaluate the impact of CPOE and CDSS in the healthcare domain. [ABSTRACT FROM AUTHOR]

Published

2022

31. Multimodality Video Acquisition System for the Assessment of Vital Distress in Children

Author

Vincent Boivin, Mana Shahriari, Gaspar Faure, Simon Mellul, Edem Donatien Tiassou, Philippe Jouvet, and Rita Noumeir

Subjects

clinical decision support system (CDSS), video database, depth sensor, children, infrared thermography, intensive care, Chemical technology, TP1-1185

Abstract

In children, vital distress events, particularly respiratory, go unrecognized. To develop a standard model for automated assessment of vital distress in children, we aimed to construct a prospective high-quality video database for critically ill children in a pediatric intensive care unit (PICU) setting. The videos were acquired automatically through a secure web application with an application programming interface (API). The purpose of this article is to describe the data acquisition process from each PICU room to the research electronic database. Using an Azure Kinect DK and a Flir Lepton 3.5 LWIR attached to a Jetson Xavier NX board and the network architecture of our PICU, we have implemented an ongoing high-fidelity prospectively collected video database for research, monitoring, and diagnostic purposes. This infrastructure offers the opportunity to develop algorithms (including computational models) to quantify vital distress in order to evaluate vital distress events. More than 290 RGB, thermographic, and point cloud videos of each 30 s have been recorded in the database. Each recording is linked to the patient’s numerical phenotype, i.e., the electronic medical health record and high-resolution medical database of our research center. The ultimate goal is to develop and validate algorithms to detect vital distress in real time, both for inpatient care and outpatient management.

Published

2023

32. Development and validation of a clinical decision support system to prevent anticoagulant duplications.

Author

Dahmke, Hendrike, Cabrera-Diaz, Francisco, Heizmann, Marc, Stoop, Sophie, Schuetz, Philipp, Fiumefreddo, Rico, and Zaugg, Claudia

Published

2024

33. اثرات پیادهسازی سیستمهای تصمیمیار بالینی بر تشخیص، درمان و مدیریت سرطانها: مطالعه مروری نظامیافته.

Author

سامان محمدپور, رضا ربیعی, الهام شاه بهرامی, کامیار فتحی ساال, مریم خاکزاد, and مصطفی لنگری زاده

Abstract

Background and Aim: Cancer is the second leading cause of death in the world, which leads to the death of more than 10 million people in the world every year. Its early diagnosis, management and proper treatment play an important role in reducing complications and mortality. One of the support tools in early diagnosis, treatment and management of this disease are Clinical Decision Support System (CDSS), which are divided into two groups, rule-based and non-rule-based. Rule-based decision support systems are created based on clinical guidelines, while non-rule-based decision support systems use machine learning. In this research, the effects of decision support systems, rulebased and non-rule-based, on cancer diagnosis, treatment and management were measured. Materials and Methods: The present study was conducted using a systematic review method, which was conducted by searching the Web of Science, Scopus, IEEE and PubMED databases until 12/31/2021. After removing duplicates and evaluating the characteristics of the inclusion and exclusion criteria, studies related to the goal were selected. The selection of articles was based on the title, abstract and full text The data collection tool was the data extraction form, which included year of study, type of study, system of body, organ of body, the service provided by the decision support system, type of decision support system, effect, effect index and the score of effect index. Narrative synthesis were used for data analysis. Results: Out of 768 articles, 16 articles related to the objectives of the study were identified. Studies were presented in two categories of clinical decision-support systems: Rule-based and non-Rule based. The effects evaluated in the clinical decision support systems were Rule-based, dose adjustment, symptoms, adherence to treatment guidelines, care time, smoking, need for chemotherapy and pain management, all of which except pain management were significant and positive. The effects evaluated were in the category of non-Rule based clinical decision support systems, diagnostic and therapeutic decisions, controlling neutropenia, all of which were significant and positive except controlling neutropenia. Conclusion: The results obtained for the effectiveness of both Rule-based and non-Rule-based decision support systems indicated different benefits of these two categories. Therefore, using their combination in the field of cancer can bring very useful results. [ABSTRACT FROM AUTHOR]

Published

2022

34. Development and assessment of PharmaCheck: an electronic screening tool for the prevention of twenty major adverse drug events.

Author

Skalafouris, Christian, Reny, Jean-Luc, Stirnemann, Jérôme, Grosgurin, Olivier, Eggimann, François, Grauser, Damien, Teixeira, Daniel, Jermini, Megane, Bruggmann, Christel, Bonnabry, Pascal, and Guignard, Bertrand

Abstract

Background: Adverse drug events (ADEs) can be prevented by deploying clinical decision support systems (CDSS) that directly assist physicians, via computerized order entry systems, and clinical pharmacists performing medication reviews as part of medical rounds. However, physicians using CDSS are known to be exposed to the alert-fatigue phenomenon. Our study aimed to assess the performance of PharmaCheck-a CDSS to help clinical pharmacists detect high-risk situations with the potential to lead to ADEs-and its impact on clinical pharmacists' activities.Methods: Twenty clinical rules, divided into four risk classes, were set for the daily screening of high-risk situations in the electronic health records of patients admitted to our General Internal Medicine Department. Alerts to clinical pharmacists encouraged them to telephone prescribers and suggest any necessary treatment adjustments. PharmaCheck's performance was assessed using the intervention's positive predictive value (PPV), which characterizes the proportion of interventions for each alert triggered. PharmaCheck's impact was assessed by considering clinical pharmacists as a filter for ruling out futile alerts and by comparing the final clinical PPV with a pharmacist (the proportion of interventions that led to a change in the medical regimen) to the final clinical PPV without a pharmacist.Results: Over 132 days, 447 alerts were triggered for 383 patients, leading to 90 interventions (overall intervention PPV = 20.1%). By risk class, intervention PPVs made up 26.9% (n = 65/242) of abnormal laboratory value alerts, 3.1% (4/127) of alerts for contraindicated medications or medications to be used with caution, 28.2% (20/71) of drug-drug interaction alerts, and 14.3% (1/7) of inadequate mode of administration alerts. Clinical PPVs reached 71.0% (64/90) when pharmacists filtered alerts and 14% (64/242) if they were not doing it.Conclusion: PharmaCheck enabled clinical pharmacists to improve their traditional processes and broaden their coverage by focusing on 20 high-risk situations. Alert management by pharmacists seemed to be a more effective way of preventing risky situations and alert-fatigue than a model addressing alerts to physicians exclusively. Some fine-tuning could enhance PharmaCheck's performance by considering the information quality of triggers, the variability of clinical settings, and the fact that some prescription processes are already highly secured. [ABSTRACT FROM AUTHOR]

Published

2022

35. Fog Enabled Intelligence Clinical Decision Support System (FICDSS) For Healthcare Applications Using Fuzzy Logic Inference System (FLIS).

Author

Saraf, Pranay Deepak, Bartere, Mahip M., and Lokulwar, Prasad P.

Subjects

*DECISION making in clinical medicine, *FUZZY logic, *MEDICAL care, *INTERNET of things, *HEALTH facilities

Abstract

In today's world, healthcare facilities are a major problem, particularly in underdeveloped nations where rural areas lack access to high-quality hospitals and medical specialists. Soft computing has improved health in the same way that it has benefited other sectors of life. Smart healthcare applications rely heavily on wearable technologies. The technique of detecting and analyzing physiological data from healthcare sensor devices is critical in smart healthcare. Fog computing is used to reduce the delay imposed by cloud computing by analyzing physiological data. However, in a fog environment, latency for emergency health status and overloading become major difficulties for smart healthcare. This study addresses these issues by proposing a unique Fog enabled Intelligence Clinical Decision Support System (FICDSS) health architecture for physiological parameter detection that enhances therapeutic and diagnostic efficiency in the health area. Sensor layer, edge layer, fog layer, and cloud layer are the four layers that make up the entire system. Data from patients' wearable or non-wearable devices is sent over an interface to an edge layer with a microcontroller system in the first layer. The edge layer's goal is to collect, process, and transfer data to the fog layer for intelligent computing. We introduced the Fuzzy Logic Inference System (FLIS), which determines the user's health condition using temporal changes in data gathered from devices deployed at the edge layer to forecast the user's health state in real time. The FLIS system takes context information from the sensor as input (in crisp form), and the fuzzification module turns the input into a fuzzy linguistic variable, which is then provided to the patient or doctor as an output. The fog layer detects the user's health state based on health parameter attributes. Finally, response and real time data from sensors is observed at cloud layer. Both cloud and fog layers take rapid response based on the user's health state. A comprehensive simulation in the MATLAB tool is used to build and evaluate the suggested fuzzy logic inference system. In terms of latency, execution time, and detection accuracy, it performs better. [ABSTRACT FROM AUTHOR]

Published

2022

36. Added value of drug-laboratory test interaction alerts in test result authorisation.

Author

van Balveren, Jasmijn A., Verboeket-van de Venne, Wilhelmine P.H.G., Doggen, Carine J.M., Erdem-Eraslan, Lale, de Graaf, Albert J., Krabbe, Johannes G., Musson, Ruben E.A., Oosterhuis, Wytze P., de Rijke, Yolanda B., van der Sijs, Heleen, Tintu, Andrei N., Verheul, Rolf J., Hoedemakers, Rein M.J., and Kusters, Ron

Subjects

*SELF-efficacy, *MEDICAL personnel, *DECISION support systems, *MEDICAL specialties & specialists, *BLOOD protein electrophoresis, *CLINICAL pathology

Abstract

We believe specialists in laboratory medicine should take the lead in implementation of CDSS for DLTI monitoring, since interpretation of test results is their core expertise [[9]]. The specialists in laboratory medicine were willing to forward DLTI alerts to clinicians; most frequently in case 1 with the interaction between chromogranin A and proton pump inhibitors (81-94%). Keywords: clinical decision support system (CDSS); diagnostic error; drug-laboratory test interaction (DLTI); laboratory test; patient safety EN clinical decision support system (CDSS) diagnostic error drug-laboratory test interaction (DLTI) laboratory test patient safety e108 e111 4 04/05/22 20220401 NES 220401 To the Editor, The use of diagnostics such as laboratory testing is expanding and test panels are becoming increasingly complex. [Extracted from the article]

Published

2022

37. Barriers and facilitators in using a Clinical Decision Support System for fall risk management for older people: a European survey.

Author

Ploegmakers, Kim J., Medlock, Stephanie, Linn, Annemiek J., Lin, Yumin, Seppälä, Lotta J., Petrovic, Mirko, Topinkova, Eva, Ryg, Jesper, Mora, Maria Angeles Caballero, Landi, Francesco, Thaler, Heinrich, Szczerbińska, Katarzyna, Hartikainen, Sirpa, Bahat, Gulistan, Ilhan, Birkan, Morrissey, Yvonne, Masud, Tahir, van der Velde, Nathalie, and van Weert, Julia C. M.

Abstract

Key summary points: Aim: The aim of our study was to assess barriers and facilitators to CDSS use reported by European physicians treating older fallers and explore differences in their perceptions. Findings: Our main findings were that a barrier to CDSS use is that physicians feel that complex geriatric patients need a physician's clinical judgement and not the advice of a CDSS. Regional differences in barrier and facilitator perceptions occurred across Europe. Message: Our main message is that when designing a CDSS for Geriatric falls patients, the patient's medical complexity must be addressed whilst maintaining the doctor's decision-making autonomy, and to increase successful CDSS implementation in Europe, regional differences in barrier perception should be overcome. Purpose: Fall-Risk Increasing Drugs (FRIDs) are an important and modifiable fall-risk factor. A Clinical Decision Support System (CDSS) could support doctors in optimal FRIDs deprescribing. Understanding barriers and facilitators is important for a successful implementation of any CDSS. We conducted a European survey to assess barriers and facilitators to CDSS use and explored differences in their perceptions. Methods: We examined and compared the relative importance and the occurrence of regional differences of a literature-based list of barriers and facilitators for CDSS usage among physicians treating older fallers from 11 European countries. Results: We surveyed 581 physicians (mean age 44.9 years, 64.5% female, 71.3% geriatricians). The main barriers were technical issues (66%) and indicating a reason before overriding an alert (58%). The main facilitators were a CDSS that is beneficial for patient care (68%) and easy-to-use (64%). We identified regional differences, e.g., expense and legal issues were barriers for significantly more Eastern-European physicians compared to other regions, while training was selected less often as a facilitator by West-European physicians. Some physicians believed that due to the medical complexity of their patients, their own clinical judgement is better than advice from the CDSS. Conclusion: When designing a CDSS for Geriatric Medicine, the patient's medical complexity must be addressed whilst maintaining the doctor's decision-making autonomy. For a successful CDSS implementation in Europe, regional differences in barrier perception should be overcome. Equipping a CDSS with prediction models has the potential to provide individualized recommendations for deprescribing FRIDs in older falls patients. [ABSTRACT FROM AUTHOR]

Published

2022

38. Clinical Decision Support System: An Effective Tool to Detect and Manage Drug-Laboratory Interactions

Author

Mahsa Freidooni, Habibollah Pirnejad, and Zahra Niazkhani

Subjects

clinical decision support system (cdss), drug-laboratory interaction (dli), challenges, advantages, review study, Computer applications to medicine. Medical informatics, R858-859.7, Medical technology, R855-855.5

Abstract

Lack of proper linkage between a patient’s medications and the results of laboratory tests can lead to common medication errors called drug-laboratory interactions (DLIs). DLIs are among the major types of preventable medication errors in the treatment process. Application of a clinical decision support system (CDSS) for physicians and other health care providers to decrease DLIs can effectively improve the treatment process and care quality helping to prevent potential adverse drug events. Design and implementation of these systems requires measurements to tackle a number of challenges. The present article briefly reviews these challenges and provides solutions to increase their effectiveness. With informed design and implementation of DLI-CDSSs, it is hoped that these interactions will be decreased and the quality of prescriptions will be improved with regard to patients’ laboratory test results.

Published

2021

39. Reconciling Allergy Information in the Electronic Health Record After a Drug Challenge Using Natural Language Processing

Author

Ying-Chih Lo, Sheril Varghese, Suzanne Blackley, Diane L. Seger, Kimberly G. Blumenthal, Foster R. Goss, and Li Zhou

Subjects

clinical decision support system (CDSS), electronic health record (EHR), drug challenge test, medication reconciliation, natural language processing, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundDrug challenge tests serve to evaluate whether a patient is allergic to a medication. However, the allergy list in the electronic health record (EHR) is not consistently updated to reflect the results of the challenge, affecting clinicians' prescription decisions and contributing to inaccurate allergy labels, inappropriate drug-allergy alerts, and potentially ineffective, more toxic, and/or costly care. In this study, we used natural language processing (NLP) to automatically detect discrepancies between the EHR allergy list and drug challenge test results and to inform the clinical recommendations provided in a real-time allergy reconciliation module.MethodsThis study included patients who received drug challenge tests at the Mass General Brigham (MGB) Healthcare System between June 9, 2015 and January 5, 2022. At MGB, drug challenge tests are performed in allergy/immunology encounters with routine clinical documentation in notes and flowsheets. We developed a rule-based NLP tool to analyze and interpret the challenge test results. We compared these results against EHR allergy lists to detect potential discrepancies in allergy documentation and form a recommendation for reconciliation if a discrepancy was identified. To evaluate the capability of our tool in identifying discrepancies, we calculated the percentage of challenge test results that were not updated and the precision of the NLP algorithm for 200 randomly sampled encounters.ResultsAmong 200 samples from 5,312 drug challenge tests, 59% challenged penicillin reactivity and 99% were negative. 42.0%, 61.5%, and 76.0% of the results were confirmed by flowsheets, NLP, or both, respectively. The precision of the NLP algorithm was 96.1%. Seven percent of patient allergy lists were not updated based on drug challenge test results. Flowsheets alone were used to identify 2.0% of these discrepancies, and NLP alone detected 5.0% of these discrepancies. Because challenge test results can be recorded in both flowsheets and clinical notes, the combined use of NLP and flowsheets can reliably detect 5.5% of discrepancies.ConclusionThis NLP-based tool may be able to advance global delabeling efforts and the effectiveness of drug allergy assessments. In the real-time EHR environment, it can be used to examine patient allergy lists and identify drug allergy label discrepancies, mitigating patient risks.

Published

2022

40. Construction of a Non-Mutually Exclusive Decision Tree for Medication Recommendation of Chronic Heart Failure.

Author

Bai, Yongyi, Yao, Haishen, Jiang, Xuehan, Bian, Suyan, Zhou, Jinghui, Sun, Xingzhi, Hu, Gang, Sun, Lan, Xie, Guotong, and He, Kunlun

Subjects

DECISION trees, HEART failure, APRIORI algorithm, RECOMMENDER systems, DRUGS, HOSPITAL admission & discharge

Abstract

Objective: Although guidelines have recommended standardized drug treatment for heart failure (HF), there are still many challenges in making the correct clinical decisions due to the complicated clinical situations of HF patients. Each patient would satisfy several recommendations, meaning the decision tree of HF treatment should be nonmutually exclusive, and the same patient would be allocated to several leaf nodes in the decision tree. In the current study, we aim to propose a way to ensemble a nonmutually exclusive decision tree for recommendation system for complicated diseases, such as HF. Methods: The nonmutually exclusive decision tree was constructed via knowledge rules summarized from the HF clinical guidelines. Then similar patients were defined as those who followed the same pattern of leaf node allocation according to the decision tree. The frequent medication patterns for each similar patient were mined using the Apriori algorithms, and we also carried out the outcome prognosis analyses to show the capability for the evidence-based medication recommendations of our nonmutually exclusive decision tree. Results: Based on a large database that included 29,689 patients with 84,705 admissions, we tested the framework for HF treatment recommendation. In the constructed decision tree, the HF treatment recommendations were grouped into two independent parts. The first part was recommendations for new cases, and the second part was recommendations when patients had different historical medication. There are 14 leaf nodes in our decision tree, and most of the leaf nodes had a guideline adherence of around 90%. We reported the top 10 popular similar patients, which accounted for 32.84% of the whole population. In addition, the multiple outcome prognosis analyses were carried out to assess the medications for one of the subgroups of similar patients. Our results showed even for the subgroup of the same similar patients that no one medication pattern would benefit all outcomes. Conclusion: In the present study, the methodology to construct a nonmutually exclusive decision tree for medication recommendations for HF and its application in CDSS was proposed. Our framework is universal for most diseases and could be generally applied in developing the CDSS for treatment. [ABSTRACT FROM AUTHOR]

Published

2022

41. Predictive models for detecting patients more likely to develop acute myocardial infarctions.

Author

Wu, Fu-Hsing, Lai, Huey-Jen, Lin, Hsuan-Hung, Chan, Po-Chou, Tseng, Chien-Ming, Chang, Kun-Min, Chen, Yung-Fu, and Lin, Chih-Sheng

Subjects

*PREDICTION models, *RECEIVER operating characteristic curves, *DECISION support systems, *SUPPORT vector machines, *CORONARY artery disease, *MYOCARDIAL infarction, *DEATH rate

Abstract

Acute myocardial infarction (AMI) is a major cause of death worldwide. In the USA, there are approximately 0.8 million persons suffering from AMI annually with a death rate of 27%. The risk factors of AMI include hypertension, family history, smoking habits, diabetes, serenity, obesity, cholesterol, alcoholism, coronary artery disease, and so forth. In this study, data acquired from a subset of the National Health Insurance Research Database (NHIRD) of Taiwan were used to develop a clinical decision support system (CDSS) to predict AMI. The integrated genetic algorithm and support vector machine (IGS) and deep neural network (DNN) were both applied to design the predictive models. A balanced dataset (6087 AMI patients and 6087 non-AMI patients) and an imbalanced dataset (6,087 AMI patients and 12,174 non-AMI patients) with each patient record including 74 features were retrieved to design the predictive models. Tenfold cross-validation was used to obtain the optimal model with best prediction performance during training. The experimental results showed that the CDSSs reached a prediction performance with accuracy, sensitivity, specificity, and area under the receiver operating characteristic curve (AUC) of 79.75–84.4%, 68.29–83.7%, 82.45–92.07%, and 0.8424–0.9089, respectively, for models designed based on the balanced dataset, as well as 81.86–86.27%, 52.65–81.22%, 84.29–96.47%, and 0.8503–0.9098, respectively, for models implemented based on the imbalanced dataset. The IGS and DNN algorithms and a combination of age, presence of related comorbidities, and other comorbidity-related features, including diagnosed age and annual physician visits of individual comorbidities, have been shown to be promising in designing strong predictive models in detecting patients who are more likely to develop AMI in the near future as well as for realizing mobile-health (m-Health) systems in managing their comorbidities to prevent occurrence of AMI events. Future work will focus on realizing an ensemble model by combining the model designed based on the long-term NHIRD dataset and the model based on the short-term EMR data and the real-time IoT sensor data, as well as implementing a transfer learning model by transferring the knowledge learned from the long-term model for training the short-term model, so that the predictive performance can be enhanced. [ABSTRACT FROM AUTHOR]

Published

2022

42. Real-time monitoring of drug laboratory test interactions: a proof of concept.

Author

van Balveren, Jasmijn A., Verboeket-van de Venne, Wilhelmine P.H.G., Doggen, Carine J.M., Erdem-Eraslan, Lale, de Graaf, Albert J., Krabbe, Johannes G., Musson, Ruben E.A., Oosterhuis, Wytze P., de Rijke, Yolanda B., van der Sijs, Heleen, Tintu, Andrei N., Verheul, Rolf J., Hoedemakers, Rein M.J., and Kusters, Ron

Subjects

*DRUG monitoring, *DECISION support systems, *PROOF of concept, *CHEMICAL laboratories, *MEDICAL specialties & specialists

Abstract

For the correct interpretation of test results, it is important to be aware of drug-laboratory test interactions (DLTIs). If DLTIs are not taken into account by clinicians, erroneous interpretation of test results may lead to a delayed or incorrect diagnosis, unnecessary diagnostic testing or therapy with possible harm for patients. A DLTI alert accompanying a laboratory test result could be a solution. The aim of this study was to test a multicentre proof of concept of an electronic clinical decision support system (CDSS) for real-time monitoring of DLTIs. CDSS was implemented in three Dutch hospitals. So-called 'clinical rules' were programmed to alert medical specialists for possible DLTIs based on laboratory test results outside the reference range in combination with prescribed drugs. A selection of interactions from the DLTI database of the Dutch society of clinical chemistry and laboratory medicine were integrated in 43 clinical rules, including 24 tests and 25 drugs. During the period of one month all generated DTLI alerts were registered in the laboratory information system. Approximately 65 DLTI alerts per day were detected in each hospital. Most DLTI alerts were generated in patients from the internal medicine and intensive care departments. The most frequently reported DLTI alerts were potassium-proton pump inhibitors (16%), potassium-beta blockers (11%) and creatine kinase-statins (11%). This study shows that it is possible to alert for potential DLTIs in real-time with a CDSS. The CDSS was successfully implemented in three hospitals. Further research must reveal its usefulness in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2022

43. Testing an individualized digital decision assist system for the diagnosis and management of mental and behavior disorders in children and adolescents

Author

Carolyn E. Clausen, Bennett L. Leventhal, Øystein Nytrø, Roman Koposov, Odd Sverre Westbye, Thomas Brox Røst, Victoria Bakken, Kaban Koochakpour, Ketil Thorvik, and Norbert Skokauskas

Subjects

Child and adolescent mental health services (CAMHS), Clinical decision support system (CDSS), Innovation, Attention-deficit/hyperactivity disorder (ADHD), IDDEAS, Norway, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Nearly half of all mental health disorders develop prior to the age of 15. Early assessments, diagnosis, and treatment are critical to shortening single episodes of care, reducing possible comorbidity and long-term disability. In Norway, approximately 20% of all children and adolescents are experiencing mental health problems. To address this, health officials in Norway have called for the integration of innovative approaches. A clinical decision support system (CDSS) is an innovative, computer-based program that provides health professionals with clinical decision support as they care for patients. CDSS use standardized clinical guidelines and big data to provide guidance and recommendations to clinicians in real-time. IDDEAS (Individualised Digital DEcision Assist System) is a CDSS for diagnosis and treatment of child and adolescent mental health disorders. The aim of IDDEAS is to enhance quality, competency, and efficiency in child and adolescent mental health services (CAMHS). Methods/design IDDEAS is a mixed-methods innovation and research project, which consists of four stages: 1) Assessment of Needs and Preparation of IDDEAS; 2) The Development of IDDEAS CDSS Model; 3) The Evaluation of the IDDEAS CDSS; and, 4) Implementation & Dissemination. Both qualitative and quantitative methods will be used for the evaluation of IDDEAS CDSS model. Child and adolescent psychologists and psychiatrists (n = 30) will evaluate the IDDEAS` usability, acceptability and relevance for diagnosis and treatment of attention-deficit/hyperactivity disorder. Discussion The IDDEAS CDSS model is the first guidelines and data-driven CDSS to improve efficiency of diagnosis and treatment of child and adolescent mental health disorders in Norway. Ultimately, IDDEAS will help to improve patient health outcomes and prevent long-term adverse outcomes by providing each patient with evidence-based, customized clinical care. Trial registration ISRCTN, ISRCTN12094788. Ongoing study, registered prospectively 8 April 2020 https://doi.org/10.1186/ISRCTN12094788

Published

2020

44. Construction of a Non-Mutually Exclusive Decision Tree for Medication Recommendation of Chronic Heart Failure

Author

Yongyi Bai, Haishen Yao, Xuehan Jiang, Suyan Bian, Jinghui Zhou, Xingzhi Sun, Gang Hu, Lan Sun, Guotong Xie, and Kunlun He

Subjects

decision tree, medication recommendation, clinical decision support system (CDSS), chronic heart failure, treatment, machine learning, Therapeutics. Pharmacology, RM1-950

Abstract

Objective: Although guidelines have recommended standardized drug treatment for heart failure (HF), there are still many challenges in making the correct clinical decisions due to the complicated clinical situations of HF patients. Each patient would satisfy several recommendations, meaning the decision tree of HF treatment should be nonmutually exclusive, and the same patient would be allocated to several leaf nodes in the decision tree. In the current study, we aim to propose a way to ensemble a nonmutually exclusive decision tree for recommendation system for complicated diseases, such as HF.Methods: The nonmutually exclusive decision tree was constructed via knowledge rules summarized from the HF clinical guidelines. Then similar patients were defined as those who followed the same pattern of leaf node allocation according to the decision tree. The frequent medication patterns for each similar patient were mined using the Apriori algorithms, and we also carried out the outcome prognosis analyses to show the capability for the evidence-based medication recommendations of our nonmutually exclusive decision tree.Results: Based on a large database that included 29,689 patients with 84,705 admissions, we tested the framework for HF treatment recommendation. In the constructed decision tree, the HF treatment recommendations were grouped into two independent parts. The first part was recommendations for new cases, and the second part was recommendations when patients had different historical medication. There are 14 leaf nodes in our decision tree, and most of the leaf nodes had a guideline adherence of around 90%. We reported the top 10 popular similar patients, which accounted for 32.84% of the whole population. In addition, the multiple outcome prognosis analyses were carried out to assess the medications for one of the subgroups of similar patients. Our results showed even for the subgroup of the same similar patients that no one medication pattern would benefit all outcomes.Conclusion: In the present study, the methodology to construct a nonmutually exclusive decision tree for medication recommendations for HF and its application in CDSS was proposed. Our framework is universal for most diseases and could be generally applied in developing the CDSS for treatment.

Published

2022

45. Explainable Artificial Intelligence-Based Decision Support System for Assessing the Nutrition-Related Geriatric Syndromes.

Author

Petrauskas, Vytautas, Jasinevicius, Raimundas, Damuleviciene, Gyte, Liutkevicius, Agnius, Janaviciute, Audrone, Lesauskaite, Vita, Knasiene, Jurgita, Meskauskas, Zygimantas, Dovydaitis, Juozas, Kazanavicius, Vygintas, and Bitinaite-Paskeviciene, Raminta

Subjects

MALNUTRITION, DECISION support systems, NUTRITIONAL assessment, SYNDROMES, ARTIFICIAL intelligence, EATING disorders

Abstract

The use of artificial intelligence in geriatrics is very promising and relevant, as the diagnosis of a geriatric patient is a complex, experience-based, and time-consuming process that involves a variety of questionnaires and subjective and inaccurate patient responses. This paper proposes the explainable artificial intelligence-based (XAI) clinical decision support system (CDSS) to assess nutrition-related factors (symptoms) and to determine the likelihood of geriatric patient health risks associated with four syndromes: malnutrition, oropharyngeal dysphagia, dehydration, and eating disorders in dementia. The proposed system's prototype was tested under real conditions at the geriatric department of Lithuanian University of Health Sciences Kaunas Hospital. The subjects of this study were 83 geriatric patients with various health conditions. The assessments of the nutritional status and syndromes of the patients provided by the CDSS were compared with the diagnoses of the physicians obtained using standard assessment methods. The results show that proposed CDSS can efficiently diagnose nutrition-related geriatric syndromes with high accuracy: 87.95% for malnutrition, 87.95% for oropharyngeal dysphagia, 90.36% for eating disorders in dementia, and 86.75% for dehydration. The research confirms that the proposed XAI-based CDSS is an effective tool, able to assess nutrition-related health risk factors and their dependencies and, in some cases, makes even a more accurate decision than a less experienced physician. [ABSTRACT FROM AUTHOR]

Published

2021

46. The Acceptance of Interruptive Medication Alerts in an Electronic Decision Support System Differs between Different Alert Types.

Author

Bittmann, Janina A., Rein, Elisabeth K., Metzner, Michael, Haefeli, Walter E., and Seidling, Hanna M.

Abstract

Background: Through targeted medication alerts, clinical decision support systems (CDSS) help users to identify medication errors such as disregarded drug-drug interactions (DDIs). Override rates of such alerts are high; however, they can be mitigated by alert tailoring or workflow-interrupting display of severe alerts that need active user acceptance or overriding. Yet, the extent to which the displayed alert interferes with the prescribers' workflow showed inconclusive impact on alert acceptance.Objectives: We aimed to assess whether and how often prescriptions were changed as a potential result of interruptive alerts on different (contraindicated) prescription constellations with particularly high risks for adverse drug events (ADEs).Methods: We retrospectively collected data of all interruptive alerts issued between March 2016 and August 2020 in the local CDSS (AiDKlinik) at Heidelberg University Hospital. The alert battery consisted of 31 distinct alerts for contraindicated DDI with simvastatin, potentially inappropriate medication for patients > 65 years (PIM, N = 14 drugs and 36 drug combinations), and contraindicated drugs in hyperkalemia (N = 5) that could be accepted or overridden giving a reason in free-text form.Results: In 935 prescribing sessions of 500 274 total sessions, at least one interruptive alert was fired. Of all interruptive alerts, about half of the sessions were evaluable whereof in total 57.5% (269 of 468 sessions) were accepted while 42.5% were overridden. The acceptance rate of interruptive alerts differed significantly depending on the alert type (p <0.0001), reaching 85.7% for DDI alerts (N = 185), 65.3% for contraindicated drugs in hyperkalemia (N = 98), and 25.1% for PIM alerts (N = 185).Conclusion: A total of 57.5% of the interruptive medication alerts with particularly high risks for ADE in our setting were accepted while the acceptance rate differed according to the alert type with contraindicated simvastatin DDI alerts being accepted most frequently. [ABSTRACT FROM AUTHOR]

Published

2021

47. Pharmacist-Led Medication Evaluation Considering Pharmacogenomics and Drug-Induced Phenoconversion in the Treatment of Multiple Comorbidities: A Case Report.

Author

Del Toro-Pagán, Nicole Marie, Matos, Adriana, Thacker, David, Turgeon, Jacques, Amin, Nishita Shah, and Michaud, Veronique

Subjects

PHARMACOGENOMICS, PHARMACISTS, COMORBIDITY, DRUG side effects, PHENOTYPES, CYTOCHROME P-450

Abstract

Pharmacogenomic (PGx) information can guide drug and dose selection, optimize therapy outcomes, and/or decrease the risk of adverse drug events (ADEs). This report demonstrates the impact of a pharmacist-led medication evaluation, with PGx assisted by a clinical decision support system (CDSS), of a patient with multiple comorbidities. Following several sub-optimal pharmacotherapy attempts, PGx testing was recommended. The results were integrated into the CDSS, which supported the identification of clinically significant drug–drug, drug–gene, and drug–drug–gene interactions that led to the phenoconversion of cytochrome P450. The pharmacist evaluated PGx results, concomitant medications, and patient-specific factors to address medication-related problems. The results identified the patient as a CYP2D6 intermediate metabolizer (IM). Duloxetine-mediated competitive inhibition of CYP2D6 resulted in phenoconversion, whereby the patient’s CYP2D6 phenotype was converted from IM to poor metabolizer for CYP2D6 co-medication. The medication risk score suggested a high risk of ADEs. Recommendations that accounted for PGx and drug-induced phenoconversion were accepted. After 1.5 months, therapy changes led to improved pain control, depression status, and quality of life, as well as increased heart rate, evidenced by patient-reported improved sleep patterns, movement, and cognition. This case highlights the pharmacist’s role in using PGx testing and a CDSS to identify and mitigate medication-related problems to optimize medication regimen and medication safety [ABSTRACT FROM AUTHOR]

Published

2021

48. Trends and Future Direction of the Clinical Decision Support System in Traditional Korean Medicine

Author

Hyun-Kyung Sung, Boyung Jung, Kyeong Han Kim, Soo-Hyun Sung, Angela-Dong-Min Sung, and Jang-Kyung Park

Subjects

traditional korean medicine, herbal medicine, clinical decision support system (cdss), electronic health records (ehr), Medicine, Miscellaneous systems and treatments, RZ409.7-999, Therapeutics. Pharmacology, RM1-950

Abstract

Objectives: The Clinical Decision Support System (CDSS), which analyzes and uses electronic health records (EHR) for medical care, pursues patient-centered medical care. It is necessary to establish the CDSS in Korean medical services for objectification and standardization. For this purpose, analyses were performed on the points to be followed for CDSS implementation with a focus on herbal medicine prescription. Methods: To establish the CDSS in the prescription of Traditional Korean Medicine, the current prescription practices of Traditional Korean Medicine doctors were analyzed. We also analyzed whether the prescription support function of the electronic chart was implemented. A questionnaire survey was conducted querying Traditional Korean Medicine doctors working at Traditional Korean Medicine clinics and hospitals, to investigate their desired CDSS functions, and their perceived effects on herbal medicine prescription. The implementation of the CDSS among the audit software developers used by the Korean medical doctors was examined. Results: On average, 41.2% of Traditional Korean Medicine doctors working in Traditional Korean Medicine clinics manipulated 1 to 4 herbs, and 31.2% adjusted 4 to 7 herbs. On average, 52.5% of Traditional Korean Medicine doctors working in Traditional Korean Medicine hospitals adjusted 1 to 4 herbs, and 35.5% adjusted 4 to 7 herbs. Questioning the desired prescription support function in the electronic medical record system, the Traditional Korean Medicine doctors working at Korean medicine clinics desired information on ‘medicine name, meridian entry, flavor of medicinals, nature of medicinals, efficacy,’ ‘herb combination information’ and ‘search engine by efficacy of prescription.’ The doctors also desired compounding contraindications (eighteen antagonisms, nineteen incompatibilities) and other contraindicatory prescriptions, ‘medicine information’ and ‘prescription analysis information through basic constitution analyses.’ The implementation of prescription support function varied by clinics and hospitals. Conclusion: In order to implement and utilize the CDSS in a medical service, clinical information must be generated and managed in a standardized form. For this purpose, standardization of terminology, coding of prescriptions using a combination of herbal medicines, and unification such as the preparation method and the weights and measures should be integrated.

Published

2019

49. Clinical decision support system for the management of osteoporosis compared to NOGG guidelines and an osteology specialist: a validation pilot study

Author

Haukur T. Gudmundsson, Karen E. Hansen, Bjarni V. Halldorsson, Bjorn R. Ludviksson, and Bjorn Gudbjornsson

Subjects

Clinical decision support system (CDSS), Clinical guidelines, Fracture risk, Osteoporosis, Treatment recommendations, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Although osteoporosis is an easily diagnosed and treatable condition, many individuals remain untreated. Clinical decision support systems might increase appropriate treatment of osteoporosis. We designed the Osteoporosis Advisor (OPAD), a computerized tool to support physicians managing osteoporosis at the point-of-care. The present study compares the treatment recommendations provided by OPAD, an expert physician and the National Osteoporosis Guideline Group (NOGG). Methods We performed a retrospective analysis of 259 patients attending the outpatient osteoporosis clinic at the University Hospital in Iceland. We entered each patient’s data into the OPAD and recorded the OPAD diagnostic comments, 10-year risk of major osteoporotic fracture and treatment options. We compared OPAD recommendations to those given by the osteoporosis specialist, and to those of the NOGG. Results Risk estimates made by OPAD were highly correlated with those from FRAX (r = 0.99, 95% CI 0.99, 1.00 without femoral neck BMD; r = 0.98, 95% CI, 0.97, 0.99 with femoral neck BMD. Reassurance was recommended by the expert, NOGG and the OPAD in 68, 63 and 52% of cases, respectively. Likewise, intervention was recommended by the expert, NOGG, and the OPAD in 32, 37 and 48% of cases, respectively. The OPAD demonstrated moderate agreement with the physician (kappa 0.51, 95% CI 0.41, 0.61) and even higher agreement with NOGG (kappa 0.69, 95% CI 0.60, 0.77). Conclusion Primary care physicians can use the OPAD to assess and treat patients’ skeletal health. Recommendations given by OPAD are consistent with expert opinion and existing guidelines.

Published

2019

50. Local, Early, and Precise: Designing a Clinical Decision Support System for Child and Adolescent Mental Health Services

Author

Thomas Brox Røst, Carolyn Clausen, Øystein Nytrø, Roman Koposov, Bennett Leventhal, Odd Sverre Westbye, Victoria Bakken, Linda Helen Knudsen Flygel, Kaban Koochakpour, and Norbert Skokauskas

Subjects

child and adolescent mental health, clinical decision support system (CDSS), clinical decision support (CDS), innovation & technology strategy, child and adolescent psychiatry (CAP), child and adolescent mental health services (CAMHS), Psychiatry, RC435-571

Abstract

Mental health disorders often develop during childhood and adolescence, causing long term and debilitating impacts at individual and societal levels. Local, early, and precise assessment and evidence-based treatment are key to achieve positive mental health outcomes and to avoid long-term care. Technological advancements, such as computerized Clinical Decision Support Systems (CDSSs), can support practitioners in providing evidence-based care. While previous studies have found CDSS implementation helps to improve aspects of medical care, evidence is limited on its use for child and adolescent mental health care. This paper presents challenges and opportunities for adapting CDSS design and implementation to child and adolescent mental health services (CAMHS). To highlight the complexity of incorporating CDSSs within local CAMHS, we have structured the paper around four components to consider before designing and implementing the CDSS: supporting collaboration among multiple stakeholders involved in care; optimally using health data; accounting for comorbidities; and addressing the temporality of patient care. The proposed perspective is presented within the context of the child and adolescent mental health services in Norway and an ongoing Norwegian innovative research project, the Individualized Digital DEcision Assist System (IDDEAS), for child and adolescent mental health disorders. Attention deficit hyperactivity disorder (ADHD) among children and adolescents serves as the case example. The integration of IDDEAS in Norway intends to yield significantly improved outcomes for children and adolescents with enduring mental health disorders, and ultimately serve as an educational opportunity for future international approaches to such CDSS design and implementation.

Published

2020